学術雑誌論文 Potential involvement of dietary advanced glycation end products in impairment of skeletal muscle growth and muscle contractile function in mice

Egawa, Tatsuro  ,  Tsuda, Satoshi  ,  Goto, Ayumi  ,  Ohno, Yoshitaka  ,  Yokoyama, Shingo  ,  Goto, Katsumasa  ,  Hayashi, Tatsuya

117pp.21 - 29 , 2017-1 , Cambridge University Press (CUP)
ISSN:0007-1145
内容記述
Diets enriched with advanced glycation end products (AGE) have recently been related to muscle dysfunction processes. However, it remains unclear whether long-term exposure to an AGE-enriched diet impacts physiological characteristics of skeletal muscles. Therefore, we explored the differences in skeletal muscle mass, contractile function and molecular responses between mice receiving a diet high in AGE (H-AGE) and low in AGE (L-AGE) for 16 weeks. There were no significant differences between L-AGE and H-AGE mice with regard to body weight, food intake or epididymal fat pad weight. However, extensor digitorum longus (EDL) and plantaris (PLA) muscle weights in H-AGE mice were lower compared with L-AGE mice. Higher levels of N[ε] -(carboxymethyl)-l-lysine, a marker for AGE, in EDL muscles of H-AGE mice were observed compared with L-AGE mice. H-AGE mice showed lower muscle strength and endurance in vivo and lower muscle force production of PLA muscle in vitro. mRNA expression levels of myogenic factors including myogenic factor 5 and myogenic differentiation in EDL muscle were lower in H-AGE mice compared with L-AGE mice. The phosphorylation status of 70-kDa ribosomal protein S6 kinase Thr[389], an indicator of protein synthesis signalling, was lower in EDL muscle of H-AGE mice than that of L-AGE mice. These findings suggest that long-term exposure to an AGE-enriched diet impairs skeletal muscle growth and muscle contractile function, and that these muscle dysfunctions may be attributed to the inhibition of myogenic potential and protein synthesis.
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http://repository.kulib.kyoto-u.ac.jp/dspace/bitstream/2433/225061/1/S0007114516004591.pdf

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